Constructing a human complex type N-linked glycosylation pathway in Kluyveromyces marxianus
Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free...
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| Published in | PloS one Vol. 15; no. 5; p. e0233492 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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United States
Public Library of Science
29.05.2020
Public Library of Science (PLoS) |
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| Abstract | Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus, a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the α-1,3-mannosyltransferase (ALG3) and α-1,6-mannosyltransferase (OCH1) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain (KU70) to increase the homologous recombination efficiency of K. marxianus. In addition, we knocked in the MdsI (α-1,2-mannosidase) gene to reduce mannosylation and the GnTI (β-1,2-N-acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man3GlcNAc2 and the human complex N-glycan Man3GlcNAc4, where Man is mannose and GlcNAc is N-acetylglucosamine. This study lays a cornerstone of glycosylation engineering in K. marxianus toward producing human glycoproteins. |
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| AbstractList | Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus, a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the [alpha]-1,3-mannosyltransferase (ALG3) and [alpha]-1,6-mannosyltransferase (OCH1) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain (KU70) to increase the homologous recombination efficiency of K. marxianus. In addition, we knocked in the MdsI ([alpha]-1,2-mannosidase) gene to reduce mannosylation and the GnTI ([beta]-1,2-N-acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man.sub.3 GlcNAc.sub.2 and the human complex N-glycan Man.sub.3 GlcNAc.sub.4, where Man is mannose and GlcNAc is N-acetylglucosamine. This study lays a cornerstone of glycosylation engineering in K. marxianus toward producing human glycoproteins. Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus, a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the α-1,3-mannosyltransferase (ALG3) and α-1,6-mannosyltransferase (OCH1) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain (KU70) to increase the homologous recombination efficiency of K. marxianus. In addition, we knocked in the MdsI (α-1,2-mannosidase) gene to reduce mannosylation and the GnTI (β-1,2-N-acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man3GlcNAc2 and the human complex N-glycan Man3GlcNAc4, where Man is mannose and GlcNAc is N-acetylglucosamine. This study lays a cornerstone of glycosylation engineering in K. marxianus toward producing human glycoproteins. Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus , a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the α-1,3-mannosyltransferase ( ALG3 ) and α-1,6-mannosyltransferase ( OCH1 ) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain ( KU70 ) to increase the homologous recombination efficiency of K . marxianus . In addition, we knocked in the MdsI (α-1,2-mannosidase) gene to reduce mannosylation and the GnTI (β-1,2- N -acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man 3 GlcNAc 2 and the human complex N-glycan Man 3 GlcNAc 4 , where Man is mannose and GlcNAc is N-acetylglucosamine . This study lays a cornerstone of glycosylation engineering in K . marxianus toward producing human glycoproteins. Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus, a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the α-1,3-mannosyltransferase (ALG3) and α-1,6-mannosyltransferase (OCH1) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain (KU70) to increase the homologous recombination efficiency of K. marxianus. In addition, we knocked in the MdsI (α-1,2-mannosidase) gene to reduce mannosylation and the GnTI (β-1,2-N-acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man3GlcNAc2 and the human complex N-glycan Man3GlcNAc4, where Man is mannose and GlcNAc is N-acetylglucosamine. This study lays a cornerstone of glycosylation engineering in K. marxianus toward producing human glycoproteins.Glycosylation can affect various protein properties such as stability, biological activity, and immunogenicity. To produce human therapeutic proteins, a host that can produce glycoproteins with correct glycan structures is required. Microbial expression systems offer economical, rapid and serum-free production and are more amenable to genetic manipulation. In this study, we developed a protocol for CRISPR/Cas9 multiple gene knockouts and knockins in Kluyveromyces marxianus, a probiotic yeast with a rapid growth rate. As hyper-mannosylation is a common problem in yeast, we first knocked out the α-1,3-mannosyltransferase (ALG3) and α-1,6-mannosyltransferase (OCH1) genes to reduce mannosylation. We also knocked out the subunit of the telomeric Ku domain (KU70) to increase the homologous recombination efficiency of K. marxianus. In addition, we knocked in the MdsI (α-1,2-mannosidase) gene to reduce mannosylation and the GnTI (β-1,2-N-acetylglucosaminyltransferase I) and GnTII genes to produce human N-glycan structures. We finally obtained two strains that can produce low amounts of the core N-glycan Man3GlcNAc2 and the human complex N-glycan Man3GlcNAc4, where Man is mannose and GlcNAc is N-acetylglucosamine. This study lays a cornerstone of glycosylation engineering in K. marxianus toward producing human glycoproteins. |
| Audience | Academic |
| Author | Lin, Jinn-Jy Kao, Yi-Ying Li, Wen-Hsiung Lee, Ming-Hsuan Chang, Jui-Jen Hsu, Tsui-Ling Lin, Yu-Ju |
| AuthorAffiliation | 4 Genomics Research Center, Academia Sinica, Nankang, Taipei, Taiwan 3 Biodiversity Research Center, Academia Sinica, Nankang, Taipei, Taiwan 2 Doctoral Degree Program in Marine Biotechnology, Academia Sinica, Nankang, Taipei, Taiwan 6 Department of Ecology and Evolution, University of Chicago, Chicago, Illinois, United States of America 5 Department of Medical Research, China Medical University Hospital, China Medical University, Taichung, Taiwan 1 Doctoral Degree Program in Marine Biotechnology, National Sun Yat-sen University, Kaohsiung, Taiwan National Health Research Institutes, TAIWAN |
| AuthorAffiliation_xml | – name: 3 Biodiversity Research Center, Academia Sinica, Nankang, Taipei, Taiwan – name: 4 Genomics Research Center, Academia Sinica, Nankang, Taipei, Taiwan – name: 2 Doctoral Degree Program in Marine Biotechnology, Academia Sinica, Nankang, Taipei, Taiwan – name: National Health Research Institutes, TAIWAN – name: 5 Department of Medical Research, China Medical University Hospital, China Medical University, Taichung, Taiwan – name: 6 Department of Ecology and Evolution, University of Chicago, Chicago, Illinois, United States of America – name: 1 Doctoral Degree Program in Marine Biotechnology, National Sun Yat-sen University, Kaohsiung, Taiwan |
| Author_xml | – sequence: 1 givenname: Ming-Hsuan surname: Lee fullname: Lee, Ming-Hsuan – sequence: 2 givenname: Tsui-Ling surname: Hsu fullname: Hsu, Tsui-Ling – sequence: 3 givenname: Jinn-Jy surname: Lin fullname: Lin, Jinn-Jy – sequence: 4 givenname: Yu-Ju surname: Lin fullname: Lin, Yu-Ju – sequence: 5 givenname: Yi-Ying surname: Kao fullname: Kao, Yi-Ying – sequence: 6 givenname: Jui-Jen surname: Chang fullname: Chang, Jui-Jen – sequence: 7 givenname: Wen-Hsiung orcidid: 0000-0003-2757-5026 surname: Li fullname: Li, Wen-Hsiung |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32469948$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_3389_fmolb_2022_910709 crossref_primary_10_4103_abr_abr_376_23 crossref_primary_10_3389_fmicb_2022_930658 crossref_primary_10_18632_aging_204116 crossref_primary_10_1002_bit_28066 crossref_primary_10_1007_s00253_024_13336_7 |
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| Copyright | COPYRIGHT 2020 Public Library of Science 2020 Lee et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2020 Lee et al 2020 Lee et al |
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| Title | Constructing a human complex type N-linked glycosylation pathway in Kluyveromyces marxianus |
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